Saltar al contenido
MilliporeSigma

Alanine dehydrogenase from soybean nodule bacteroids. Kinetic mechanism and pH studies.

The Journal of biological chemistry (1993-05-25)
M T Smith, D W Emerich
RESUMEN

The kinetic mechanism of alanine dehydrogenase from soybean nodule bacteroids was studied by initial velocity experiments with or without product inhibitors, dead-end inhibitors, or alternate substrates. Without inhibitors, double-reciprocal plots of initial velocity experiments showed intersecting lines, indicating a sequential mechanism. These initial velocity experiments also revealed rapid-equilibrium ordered binding of NH4+ prior to pyruvate. When NAD was varied at changing-fixed concentrations of L-alanine, a nonlinear, concave down double-reciprocal plot was obtained. Substrate inhibition by pyruvate or L-alanine with cosubstrates varied was uncompetitive giving further support to an ordered mechanism. Product inhibition studies showed that both NAD and NADH and pyruvate and L-alanine were competitive. This suggested a Theorell-Chance mechanism. When product inhibition by L-alanine was studied with NH4+ varied in a series of experiments at increasing concentrations of pyruvate, the inhibition was eliminated, as expected for a Theorell-Chance mechanism. Furthermore, when NADH, NH4+, and pyruvate were varied simultaneously, maintaining their concentrations at a constant ratio to each other, an infinite Vmax was obtained. pH studies of the kinetic parameters indicated that NH4+, rather than NH3, was the true substrate that binds to a residue on the enzyme with a pK of 8.1. In conclusion, the kinetic mechanism at pH 8.5 was determined to be a Ter-Bi Theorell-Chance. In the amination direction, the substrates add in the order: NADH, NH4+, pyruvate, with NH4+ binding in rapid-equilibrium. In the reverse direction, NAD adds first, followed by L-alanine.

MATERIALES
Referencia del producto
Marca
Descripción del producto

Sigma-Aldrich
Alanine Dehydrogenase, recombinant, recombinant, expressed in E. coli, ≥15 U/mg